MICROBIOLOGY
- Academic year
- 2023/2024 Syllabus of previous years
- Official course title
- MICROBIOLOGY
- Course code
- CM1425 (AF:374643 AR:251390)
- Modality
- On campus classes
- ECTS credits
- 6
- Degree level
- Master's Degree Programme (DM270)
- Educational sector code
- BIO/19
- Period
- 1st Semester
- Course year
- 2
- Where
- VENEZIA
- Moodle
- Go to Moodle page
Contribution of the course to the overall degree programme goals
Expected learning outcomes
-Understand the fundamental concepts of microbiology and the importance of microorganisms;
-Describe the metabolic diversity of prokaryotes and how these organisms obtain energy, electrons and carbon from the environment;
-Describe the molecular biology mechanisms of microorganisms
-Discuss the main options for the control of microbial growth in vitro and in vivo;
- Have a good understanding of common and advanced procedures in microbiology laboratories, including bacterial isolation and purification and bacterial identification based on biochemical and molecular tools
-Evaluate potential benefits and harm caused by microorganisms;
-Knowledge of microbial tools for new application in biotechnology and nanotechnology
-Present and discuss scientific data retaining and applying the specialized language of microbiology
Pre-requirements
Contents
a. Importance to study microorganism. Cell structure: prokaryotes vs eukaryotes; bacterial morphology; the cytoplasmic membrane: structure and functions; bacterial wall: Gram + and Gram- structure, peptidoglycan and LPS; cell wall synthesis and cell division.
b. Surface cell structures: capsules and mucous layers, fimbriae and pili. Cell inclusions; gas vesicles; endospores: structure and sporulation cycle.
c. Microbial locomotion: Flagella and motility; gliding motility; microbial taxes: chemotaxis, phototaxis.
d. Microbial DNA, replication, transcription and bacterial translation; mutations; gene transfer in bacteria; gene recombination; transformation; transduction; conjugation; transposons; CRISPR
2. DIVERSITY OF MICROBIAL METABOLISM. Macro and micro nutrients; cellular transport; energy classification of microorganisms; principles of bioenergetics;
Catabolism. glycolysis and fermentation; respiration: citric acid and glyoxylate cycles, electron carriers; electron transport and proton motive force.
Anabolism: polysaccharide biosynthesis and gluconeogenesis; amino acids-nucleotides, lipids.
Autotrophy: Calvin cycle and other CO2 fixation pathways; phototrophy; nitrogen fixation; Hydrogen oxidation; iron and sulfur oxidation; nitrification; nitrate reduction and denitrification; sulfur reduction; 1-carbon metabolism; acetogenesis and methanogenesis, fermentations.
3. MICROBIAL GROWTH. Nutrients; classical microbiology: cultivation techniques and microbial count; binary division and microbial growth cycle; continuous culture; environmental effects on microbial growth: temperature, pH, osmotic pressure and oxygen; controlling microbial growth: heat, chemical and physical agents; antibiotic resistance.
4. SOCIAL BACTERIAL BEVIOURS. Stage of biofilm formation; different type of biofilm; the biofilm matrix; the matrix as a communal external digestion system; heterogeneity in biofilm; bacterial social interactions; bacterial cooperation and competition; tolerance and resistance to, antimicrobials; biofilm adhesion on surfaces; biofilm
5. HUMAN MICROBIOME. Microbiome composition; diversity of human microbiotas; the central rule of gut microbiome; microbiome-host coevolution; microbiome in health and diseases; gut microbiome-host axis; microbiome intervention
6. BACTERIAL COMMUNICATION. Quorum sensing; type of quorum sensing systems; cell to cell communication; intra and inter bacterial communication
7. MICROBIAL ADVANCED TECHNIQUES. FISH, Flow cytometry, 16S rRNA sequencing, shotgun metagenomics, single cell sequencing, Ecological parameters
8. BACTERIAL INGENEERING. Biofuels production, microbial fuel cells, materials design by synthetic biology; bottom-up approaches for single cell and microbial community
9. Journal club: students will present research articles in microbiology field related to new discovery in human microbiome, single-cell sequencing, outer membrane vesicles, engineering biofuels, synthetic bacterial cells, bioremediation
Referral texts
Research Articles and Reviews are provided by the Professor.
Assessment methods
Teaching methods
Teaching language
Type of exam
2030 Agenda for Sustainable Development Goals
This subject deals with topics related to the macro-area "Human capital, health, education" and contributes to the achievement of one or more goals of U. N. Agenda for Sustainable Development